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*DECK LIBA27
SUBROUTINE LIBA27(NAMFIL,NBISO,NISOT,NSEGM,NL,ISONRF,ISHINA,
1 MASKI,NOM,NOMOB,IPR)
*
*-----------------------------------------------------------------------
*
*Purpose:
* Probe the APOLIB-2 file and compute the IPR main index vector.
*
*Copyright:
* Copyright (C) 2002 Ecole Polytechnique de Montreal
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version
*
*Author(s): A. Hebert
*
*Parameters: input
* NAMFIL name of the APOLIB-2 file.
* NBISO number of isotopes present in the calculation domain.
* NISOT number of isotopes in the PHEAD segment.
* NSEGM number of APOLIBE segments in the APOLIB-2 file.
* NL number of Legendre orders required in the calculation
* NL=1 or higher.
* ISONRF library name of isotopes.
* ISHINA self shielding name.
* MASKI isotopic mask. Isotope with index I is processed if
* MASKI(I)=.true.
* NOM isotope names in the PHEAD segment.
* NOMOB APOLIBE segment names.
*
*Parameters: output
* IPR main index vector:
* IPR(1,I) index in PHEAD segment table;
* IPR(2,I) segment index of main data (ISOTOP);
* IPR(3,I) segment index of production data (PHYSIQ);
* IPR(4,I) segment index of delayed neutron data (BETAEF);
* IPR(5,I) segment index of main ss data (SSDATA);
* IPR(6,I) segment index of 104 flux data (SSPOND);
* IPR(7,I) segment index of autolib data (SSSECT);
* IPR(..,I) segment index of pn diff xs data (DIFF..);
* IPR(..,I) segment index of pn transfer data (TRAN..).
*
*-----------------------------------------------------------------------
*
*----
* SUBROUTINE ARGUMENTS
*----
CHARACTER NAMFIL*(*)
INTEGER NBISO,NISOT,NSEGM,NL,ISONRF(3,NBISO),ISHINA(3,NBISO),
1 NOM(5,NISOT),NOMOB(7,NSEGM),IPR(7+2*(NL-1),NBISO)
LOGICAL MASKI(NBISO)
*----
* LOCAL VARIABLES
*----
CHARACTER TEXT20*20,HNISOR*12,HNISSS*12,HSMG*131
INTEGER NITCA(5)
*
IPR(:7+2*(NL-1),:NBISO)=0
DO 200 IMX=1,NBISO
IF(MASKI(IMX)) THEN
WRITE(HNISOR,'(3A4)') (ISONRF(I0,IMX),I0=1,3)
WRITE(HNISSS,'(3A4)') (ISHINA(I0,IMX),I0=1,3)
CALL LCMCAR(HNISOR,.TRUE.,NITCA)
KISO=0
DO 10 ISO=1,NISOT
IF(NITCA(1).EQ.NOM(1,ISO)) THEN
IF(NITCA(2).EQ.NOM(2,ISO)) THEN
IF(NITCA(3).EQ.NOM(3,ISO)) THEN
KISO=ISO
GO TO 20
ENDIF
ENDIF
ENDIF
10 CONTINUE
WRITE (HSMG,300) HNISOR,NAMFIL
CALL XABORT(HSMG)
20 IPR(1,IMX)=KISO
*
TEXT20='ISOTOP'//HNISOR(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 30 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 40
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
30 CONTINUE
WRITE (HSMG,300) HNISOR,NAMFIL
CALL XABORT(HSMG)
40 IPR(2,IMX)=KISEG
*
TEXT20='PHYSIQ'//HNISOR(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 50 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 60
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
50 CONTINUE
60 IPR(3,IMX)=KISEG
*
TEXT20='BETAEF'//HNISOR(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 70 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 80
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
70 CONTINUE
80 IPR(4,IMX)=KISEG
*
IF(HNISSS.NE.' ') THEN
TEXT20='SSDATA'//HNISSS(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 90 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 100
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
90 CONTINUE
WRITE (HSMG,310) HNISSS,NAMFIL
CALL XABORT(HSMG)
100 IPR(5,IMX)=KISEG
*
TEXT20='SSPOND'//HNISSS(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 110 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 120
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
110 CONTINUE
120 IPR(6,IMX)=KISEG
*
TEXT20='SSSECT'//HNISSS(:12)
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 130 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 140
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
130 CONTINUE
140 IPR(7,IMX)=KISEG
ENDIF
*
DO 190 IL=2,NL
WRITE(TEXT20,'(4HDIFF,I2.2,A12)') IL-1,HNISOR
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 150 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 160
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
150 CONTINUE
160 IPR(7+(IL-1),IMX)=KISEG
*
WRITE(TEXT20,'(4HTRAN,I2.2,A12)') IL-1,HNISOR
CALL LCMCAR(TEXT20,.TRUE.,NITCA)
KISEG=0
DO 170 ISEG=1,NSEGM
IF(NITCA(1).EQ.NOMOB(1,ISEG)) THEN
IF(NITCA(2).EQ.NOMOB(2,ISEG)) THEN
IF(NITCA(3).EQ.NOMOB(3,ISEG)) THEN
IF(NITCA(4).EQ.NOMOB(4,ISEG)) THEN
IF(NITCA(5).EQ.NOMOB(5,ISEG)) THEN
KISEG=ISEG
GO TO 180
ENDIF
ENDIF
ENDIF
ENDIF
ENDIF
170 CONTINUE
180 IPR(7+(NL-1)+(IL-1),IMX)=KISEG
190 CONTINUE
ENDIF
200 CONTINUE
RETURN
*
300 FORMAT(26HLIBA27: MATERIAL/ISOTOPE ',A12,20H' IS MISSING ON APOL,
1 15HIB-2 FILE NAME ,A12,1H.)
310 FORMAT(49HLIBA27: SELF-SHIELDING DATA OF MATERIAL/ISOTOPE ',A12,
1 35H' IS MISSING ON APOLIB-2 FILE NAME ,A12,1H.)
END
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